Why the future of textiles is collaborative
How-to manual from MIT and the Fashion Institute of Technology codifies successful textiles partnership between designers, engineers.
How-to manual from MIT and the Fashion Institute of Technology codifies successful textiles partnership between designers, engineers.
New superconducting magnet breaks magnetic field strength records, paving the way for practical, commercial, carbon-free power.
A new approach increases the efficiency of chemical reactions that are key to many industrial processes.
Transformational projects bring inclusive, welcoming spaces to the MIT campus.
This year’s projects address mobile evaporative vegetable preservation, portable water filtration, and dairy waste reduction.
Analyzing California’s power system, MITEI researchers show that hydrogen-generated electricity is a cost-competitive candidate for backing up wind and solar.
MIT offers over 120 undergraduate classes related to sustainability, a sign of growing student and faculty interest in the environmental impacts of their fields.
Researchers affiliated with the MIT Concrete Sustainability Hub find that paving material selection could mitigate extreme heat and greenhouse gas emissions.
Eli Paster SM ’10, PhD '14 is the CEO of PolyJoule, a startup working to reinvent energy storage technology to increase efficiency and reduce costs.
As researchers consider materials for solid-state batteries, they also may want to consider how those materials could impact large-scale manufacturing.
MIT team produces practical guidelines for generating hydrogen using scrap aluminum.
The School of Engineering recognizes the materials scientist's outstanding contributions to education.
An MIT study gauges the pace of shifting to battery power.
Putting 58 fume hoods to sleep while unused results in substantial energy savings.
Using an untapped resource, the Malden River Project is boosting social resilience along with climate mitigation in the gateway city of Malden, Massachusetts.